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USENIX, The Advanced Computing Systems Association

4th USENIX Symposium on Networked Systems Design & Implementation

Pp. 57–72 of the Proceedings

SAAR: A Shared Control Plane for Overlay Multicast

Animesh Nandi, Rice University and Max Planck Institute for Software Systems; Aditya Ganjam, Carnegie Mellon University; Peter Druschel, Max Planck Institute for Software Systems; T.S. Eugene Ng, Rice University; Ion Stoica, University of California, Berkeley; Hui Zhang, Carnegie Mellon University; Bobby Bhattacharjee, University of Maryland

Abstract

Many cooperative overlay multicast systems of diverse designs have been implemented and deployed. In this paper, we explore a new architecture for overlay multicast: we factor out the control plane into a separate overlay that provides a single primitive: a configurable anycast for peer selection. This separation of control and data overlays has several advantages. Data overlays can be optimized for efficient content delivery, while the control overlay can be optimized for flexible and efficient peer selection. Several data channels can share a control plane for fast switching among content channels, which is particularly important for IPTV. And, the control overlay can be reused in multicast systems with different data plane organizations.

We designed and evaluated a decentralized control overlay for endsystem multicast. The overlay proactively aggregates system state and implements a powerful anycast primitive for peer selection. We demonstrate that SAAR“s efficiency in locating peers reduces channel switching time, improves the quality of content delivery, and reduces overhead, even under dynamic conditions and at scale. An experimental evaluation demonstrates that the system can efficiently support single-tree, multitree and block-based multicast systems.

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Last changed: 29 May 2007 ac